Wrapping machine



April 4, 1939- A. G. ROSE 2,153,483

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April 4, 1939. A. G. ROSE WRAPPING MACHINE Filed April 20, 1958 ll Sheets-Sheet ll {3y I ATTOENEVES- Patented Apr. 4, 19 39 UNITED STATES WRAPPING mom Alfred German Rose, Gainsborough, England, as-

signor to Rose Bros. (Gainsborough) Limited, Gainsborough, Lincolnshire, England, a British company Application 21 Claims.

The invention relates to the wrapping of articles or containers such as cartons, packets or the like and has for its object to provide improvements in or relating to such wrapping,

, whereby the wrapping material is applied to the article or container in a tighter manner than is usually possible with wrapping machines. Another object of the invention is to provide improved methods and apparatus for mechanically wrapping articles or containers, whereby the size of the wrapping machine and therefore the space occupied thereby is substantially reduced.

The invention relates more specifically to the wrapping of containers such as cardboard and 1 like cartons which are wrapped within waterproof or moisture-proof material such as transparent waxed paper or paper impregnated with some other moisture-proof material, .which may also be rendered adhesive by the application of heat.

One object of the invention is to remove a partially wrapped article or container from retaining and/or wrapper folding means such as a packet wheel in a mechanical wrapping machine, in which the container is pushed out of the said retaining and/or folding means by moving it in the same direction with respect to the retaining means as it was moved'on its insertion therein. In this manner the wrapping around the article or container is tightened thereon due to the g friction between the outer surface of the wrapper and the retaining and/or folding means.

Another object of the invention is to .pro-

vide means whereby during subsequent wrapping stages, the article or container is always moved 35 in a direction which ,is away from overlapping edges of the wrapping material, so that the tightening effect upon the wrapping is maintained.

A further object of the invention is to wrap .the article or container in stages, the article or container being moved during or between stages, so that in a wrapping machine, articles or containers may be fed therein at intervals corresponding to the stages of the wrapping.

Another object of the invention is to move the article or container during the stages of wrapping in a defined path, one or more portions of which are stepped in relation to the others. In this manner the length of a machine for wrapping may be reduced considerably, as one or more of the steps may be in the vertical direction.

Yet another object of the invention is to rotate a partially wrapped article or container through 90 during its passage between two stages of the wrapping operation, during which it is transferred from a first folding station to a second folding station, as for example in what is known in the art as a carton or packet wheel. .Such a rotation enables the article or container to be moved during the next stage of the wrappingto the next station by movement in the same'di- April 20, 1938. Serial No. 203,180 Great Britain March 6, 193':

rection with respect to packet retaining means as it was inserted, and simultaneously permits another article or container to be fed to the first wrapping station.

Another object of the invention is to push the article or container against the sheet of wrapping material on being fed to a wrapping machine, and thereafter between guides to fold the wrapping to channel shape around three sides of the container, from which it is subsequently removed in the same direction with respect to the guides as it was inserted. In the next stage of the wrapping the side parts of the wrapping material which extend beyond the. uncovered side of the container are folded over the fourth side before the container is pushed out from the guides. During the removal of the partially wrapped article or container from between the guides, the portions of the wrapping extending beyond the ends of the container are folded over said ends from opposite sides in the direction of movement of the article or container whilst it is being removed. Closure flaps are thus formed at each end of the container in alignment with the guides, and these are subsequently folded over the ends of the package so that one closure flap at each end overlaps the other, and these overlying closure flaps are sealed.

Conveniently-the sealing is effected by passing the wrapped article or container between end sealing means such as heated rollers, whereby impregnation in the wrapping at these closure flaps may be rendered adhesive.

The invention also includes an improved wrapping machine and various improved mechanisms therein as will be apparent hereinafter, together with other objects of the invention.

The invention is illustrated by wayof example in the accompanying drawings, in which:---.

Fig. 1 shows diagrammatically the sequence of operations of a machine according to the inven- I tion when viewed from the right hand side,

Fig. 2 shows in perspective the various stages of the wrapping undergone by an article or container passing through the wrapping machine, the wrappings being shown at the end of each stage of movement of the article. 4

Figs. 3, 3A and 3B show the mechanism of an improved wrapping machine according to the invention in side elevation as seen from the right hand side of the machine,

Figs. 4 and 4A show in front elevation a packet wheel forming part of the machine shown in Figs. 3, 3A and 3B.

Fig. 5 shows the packet wheel in side elevation as seen from the right hand side of the machine,

Fig. 6 shows in side elevation packet removing mechanism and upper and lower end folding mechanisms as seen from the right hand side of the machine,

Fig. '7 shows the arrangement shown in Fig. 6 in front elevation,

Fig. 8 shows in front elevation upper end folding mechanism at a stage of its operation,

Fig. 9 shows in front elevation lower end folding mechanism,

Fig. 10 shows in front elevation mechanism for folding end closure flaps and gripping the container,

Fig. 11 shows the arrangement illustrated-in Fig. 10 in side elevation as seen from the right hand side of the machine, and

Fig. 12 is a pictorial view of the part of the machines, viewed from the left hand side, and showing the packet wheel and other mechanisms during a stage of the wrapping.

Similar parts of the machine are denoted throughout the figures by the same numerals, and for convenience of reference, and in order that the passage of the package throughout the machine may be readily followed, the front face of the package has been designated FF, and the rear face, RF. Similarly, the left hand side of the package is designated LS, the right hand side. R8, the top end TE and the lower end LE. It

will be appreciated that the package being of rectilinear form, may be reversed end for end, and/or'front to rear without affecting the operation of the machine.

Referring to the diagrammatic Figure 1, waxed wrapping paper 2 is fed into the machine from a reel I by means of a feed wheel 3, which bears against a roller 4 over which the paper passes. The machine is driven continuously, but packages are passed through the machine in a series of six well defined stages, and a length of wrapping paper sufhcient to wrap up one packet, is fed into the machine during each of its stage movements, by intermittent rotation of the feed wheel 3. In order to compensate for the uneven feed of the paper, between the feed roller 3 and the reel I, it passes over a roller 5, which is slidable in guides 6 by the tension in the paper during feeding, against the resistance of a tension spring I, the paper passing under a jockey wheel 8 before passing between the feed roller 3 and the roller 4.

The wrapping is fed into the machine through sets of vertical guides 9, III, to the position shown in Figure 1 at 2a. In this position it is held yieldably by the guides, and extends across the opening between a pair of horizontal guides II and I2 with its centre in alignment with the point midway between the guides II and I2. Simultane-. ously with the feeding of the wrapping to the position 2a, a package P is fed transversely by means of a horizontal belt I! to a position as shown at PL in Figures 1 and 2, where it subtends the opening between the guides II and I2 but on the opposite side of the wrapping. A feed ram I4 is arranged to push the package P in a horizontal direction between the guides II and I2, and the wrapping is simultaneously severed by a knife I5, so that it becomes wrapped around the front and rear faces FF and RF and the left hand side LS of the package (as shown at P: in Fig. 2) with its side portions extending between the guides I I and I2, beyond the right hand side R8 of the package. The length of the paper in the horizontal direction transversely of the machine is somewhat greater than the height of the package between its top and lower ends TE and LE, to allow sufllcient wrapping to be folded over the ends of the package. The guides I I and I2 extend over the end portions of the wrapp and thus serve to prevent the comers of the wrapping from turning back.-

The feed ram I4 is provided at its sides with extension pieces which engages the wrapping at its parts a and b (Fig. 2) in alignment with the left hand side LS of the package, which extend beyond the ends thereof.

Thefeed ram l4 and its side extension pieces push the package P and the wrapping through the guides I I and I2, and thereafter between retaining plates I5 and I6 provided on a packet wheel II. A stop I8 is provided to position the package P correctly between the retaining plates I5 and I6, and the feeding of the packet to its position PI on the belt I3 and thence to its position P2 between the retaining plates I5 and "I6 occupies the period of one stage of movement of the machine.

The packet wheel I I is provided with two pairs of retaining plates I5, I6 and I9, 20, and makes a half revolution in a counter-clockwise direction during each stage of movement of the machine. During a half revolution of the packet wheel l1, one pair of packet retaining plates is moved from the position shown at I5, I6 to that shown at I9, 20, and the other pair is moved from the position shown at I9, 20 to that shown at I5, I8. During this movement from P2 to P3 however. the packages P and its retaining plates I5, I9 are rotated with respect to the packet wheel clockwise through 90, so that when the plates reach the position I9, 20, the right hand side RS of the package is uppermost, and the front and rear faces of the package FF and RF are vertical. Immediately before the packet wheel rotates in the counter-clockwise direction, the guides I I and I2 are swung outwardly to permit free passage of the extending portions of the wrapping.

During the next stage of movement of the machine, the package is moved from its position P3, vertically downwards to a position P4, and during the latter part of this movement, when it has been removed clear of the retaining plates in the position I9, 20, the packet wheel I! is again rotated half a revolution and the plates are rotated ina counter-clockwise direction to the packet receiving position P2 which was formerly occupied by the other pair of retaining plates. Whilst the packet wheel performs this half revolution in a counter-clockwise direction, the plates which were in the position I9, 29, rotate about their own axis through an angle of 270 in an anti-clockwise direction, so that the vertical plate I9 is returned to the horizontal position occupied at the previous stage by the plate I 5.

Immediately before the movement of the package from' the position P3 to the position P4, the upwardly extending portions 0 and d of the wrapping are folded successively over the right hand side RS'of the package, and during the movement between the positions P3 and P4, the portions of the wrapping which then extend beyond the top end TE and the lower end LE, in alignment with the right hand side RS and the left hand side LS of the package, are folded inwardly against the top and lower ends of the package respectively such as shown at a and e, P4, Fig, 2, so that when the package arrives at the position P4 two end closure flaps (f in P4) extend beyond the top end and two similar flaps (y and h in P4) extend beyond thelower end of the package in alignment with the front and rear faces of the package.

In folding over the ends of the wrapping be- J tween the stage P3 and P4, the upwardly extending part c of the wrapping adjacent the rear face RF of the package is first folded over against the right hand side R8 of the package, and thereafter the portion of the wrapping d extending adjacent the front face FF of the package is folded over against the right hand side R5 of the package so as to overlap the opposite edge of the wrapping. The partially wrapped package is then gripped between' an 'upper ejector plate 83 and a lower horizontal platform 2|, and is slid vertically downwards from between the retaining plates l9 and 20. During this downward movement of the package, upper and lower folding devices fold the upper and lower extending parts of the wrapping such as e and a over the two ends of TE and LE of the package.

When the package reaches the position P4, a U pair of vertically pivoted folding plates fold over the flaps such as h of the wrapping extending in alignment with the rear face RF of the package at either end thereof and thereafter grip the package, and a feed ram 22 then pushes the partially wrapped package from the receiving platform 2!! in a horizontal direction to the position P5, in which it is received between a pair of moving belts 22, 23 extending between vertical rollers, whereby the package is moved progressively to the left, the belts serving at the same time to fold over the remaining pair of end closure flaps f and g at each end of the package which are in alignment with the front face FF.

During the passage of the completely wrapped package between the pairs of belts 22, 23 the closure flaps f and o are heated slightly so that the wax in the wrapping is softened and melted slightly. The package then passes between unheated belts or rollers so that the flaps I and y are pressed in towards the package to secure the wrapping. In order to seal the package completely, it also passes under a set of horizontally mounted heating rollers or a belt arranged to bear on the right hand side of the package which is then uppermost, so that the war: at the edges of the overlapping part d of the wrapping along the right hand side of the package is softened and melted slightly and pressure is applied to seal this overlapping part to the layer c underneath;

Referring now to Figure 3 of the drawings, the feed roller 3 for feeding the wrapping 2 is operated from the main drive of the machine, and feeds the wrapping over a cutting block I5a with 55 which the cutting knife l5 cooperates. The knife is mounted on horizontal rocking levers which are arranged one on either side of the machine on vertical spindles 36. One spindle is provided at its lower end with a bevelled gear wheel 31 which is engaged alternatively by toothed quadrants 3Band 39 provided ona member which is rotated continuously from the main drive of the machine, to rotate the spindles 38 partially and move the cutting knife i5 across as the paper 2 against the bias of restoring springs,

simultaneously with each feeding movement effected by the feed ram [4. The wrapping after passing over the cutting block lea, passes between two rows of vertical guiding and retaining rods 9 and i0 arranged alternately in front and at the back of the paper. These retaining rods extend to near the uppermost part of the package in its position between Pl, P2, and are stag gered so that the wrapping is slightly flexed to I 75 a vertically corrugated form and is thus held between the rods due to its own rigidity. The lower ends of the rods on the side of the wrapping adjacent the packet wheel I1, are curved towards the packet wheel to prevent tearing of the wrapping when it is withdrawn from the guides and introduced between the retainingplates on the packet wheel by the feeding of a package by the feed ram It.

The package P is fed into the machine to its first position P! on the horizontal belt l3 in front of the feed ram I4 which is supported at the end of a carriage 24 furnished at either side of the machine with pairs of rollers 25 and 26 which roll in guides 21 and 28. The carriage 24 is moved forward inthe direction of the arrow to push the package 1? into its second position P2 by means of an arm 29 pivoted at its lower end 30 to a lever 3| which is freely pivoted about an axis 32 in the machine frame. .The arm 29 is connected at an intermediate point 2! therein by a connecting rod 33 to one arm 2" of a bell crank lever 2H, 2H which is pivoted about the axis 32. On the axis 32 is also pivotally mounted a lever 2l2 which is provided on one side with a lug 2l3 which bears against a lug 2 formed in the side of the lever arm H I. At the end of the lever H2 is mounted a roller 2l5 which bears on the outer surface of a cam 34 which is rotated continuously about an axis 2i6 from the main drive for the machine, to rock the arm 29 once during each stage of the machine's operation. The movement of the arm 29 is arranged so that the feed ram I4 pushes the package from its position Pl to its position P2 rapidly at the beginning of each stage. At the free end of the arm 2" of the bell crank lever is mounted a roller 2l3 which bears on the outside of the cam 34, and the levers 2H and 2l2 are connected together by a tension spring H9.

The return stroke of the lever 29 is thus effected positively by the lever 2II through its connected arm 2, but the forward stroke of the lever 29 is effected by the lever 242 through the resilient connection 2l9. This ensures that the feed ram I4 is not forced forwardly against any high resistance such as would occur if a packet became jammed in the position Pi. In such an event, the cam 34 continues to rotate and the lever 2l2 is rocked by the cam against the tension of the spring 2! which however is adjusted so as to be suflicient only to permit the feed ram l4 to be moved forward to push a packet against the resistance of the wrapping and into the packet receiving plates on the packet wheel. I

In order to prevent the feed ram l4 from op erating in theevent of a package not being fed into the machine by the belt l3 or being fed so as to position the package wrongly in the machine, a safety catch is provided which engages the feed ram carriage 24 and prevents movement of the feed ram I4 except when the package PI is correctly positioned.

The packet wheel and its associated mechanism is shown in Figures 4 and 5, and comprises essentially an arm I! pivoted at its centre on a fixed shaft 40. The arm is geared to a Geneva wheel 4l (shown in Fig. 3) which is provided with five radial slots 42'. These slots are engaged successively by rollers 43 and 44 which are carried at the ends of an arm 45 rotated in an anti-clockwise direction continuously from the main drive of the machine about the axis 48 and has connected to its spindle a gear wheel 4|a which meshes with a gear wheel I'Ia secured to the arm I! so that the packet wheel rotates through 180 in an anti-clockwise direction for each fifth of a revolution of the Geneva wheel 4|.

The arm I1 is provided at each end with a pivot pin 41, 48 respectively, on which are pivotally mounted trailing arms 49 and 58 respectively. These arms are secured to carriers 5|, 52 each of which supports a set of parallel packetreceiving plates, a single one 53, 63 and an opposite parallel pair 54, 55 and 64, 65 respectively. When the carrier is in the package-receiving position shown at P2 in Figure 4, the lower plate 53 which is fixed to the carrier 5| is horizontal, with its upper surface in alignment with the upper surface of the belt l3 from which the package is pushed from its position Pl into its position P2. The upper plates 54 and 55 are spaced from the plate 53, a distance slightly less than the width of the packet between its front and rear faces FF and RF, and these plates are yieldably mounted on arms 56 and 51 secured to the carrier 5|, so that they can be moved laterally away from the plate 53 against a biassing force. The plates 54 and 55 have each secured to their upper sides four studs 58, which freely protrude through the arms 56 and 51 and are "secured with respect thereto by knurled adjustment nuts 59. Compression springs 68 are intrposed between the plates 54, 55 and the arms 56 and 51 respectively, to provide the blessing force for the plates 54 and 55.

The arm 52 is similarly provided with a fixed plate 63 and a pair of resiliently mounted up- .per plates 64 and 65.

In order to produce the rotation of the packet P2 from its horizontal position on entering the packet wheel to its vertical position P3 from which it is removed from the packet wheel vertically downwards, the trailing arms 49 and 58 are provided at their ends with rollers 6|' and 62 respectively. These rollers engage in a circular cam track 66 which is eccentrically mounted with respect to the axis 48 of the packet wheel so that as the packet wheel arm I1 is rotated about the axis 40, the trailing arm 49 moves from its position shown in Figure 2 to the position occupied by the trailing arm 58 at the opposite side of the packet wheel. The package is thereby rotated through 90 only during the half revolution of the packet wheel I! in which it moves from position P2 to P3. The package retaining plates are rotated through 270 in their repositioning movement between the package positions P3 and P2 so that the yieldable plates are always uppermost when in the position P2 and the fixed opposite plate in position P2 is thus always in alignment with the belt i3.

In order to fold over the protruding portion (Figure 2) ofthe wrapping which is in alignment with the rear face RF of the package just before it reaches the position P3, each carrier and 52 is provided with a folder rod 61 and 68 respectively, which is arranged to be moved across the rear side RS during the last portion of its movement between the position.P2 and P3. The rod (which may have a roller sleeve thereon), is carried at the ends of a pair of cranked levers 69 and I8 which are pivoted one at each end of the carrier 5| on an axis 1|. The remote end of the lever 18 carries a roller 12, and the arms 69 and 18 are blessed by tension springs I3 and 14 respectively, so that the roller 12 bears on a fixed cam 15 which is coaxial with the axis 48 of the packet wheel The folder rod 68 is similarly carried on a pair .of arms I6, one of which carries at its other end a roller 11 which bears on the surface of the cam 15. This cam is formed at an appropriate position with an indent 18 so that when the packet wheel I! reaches the horizontal position in which the left hand packet-retaining plates 63, 64 and 65 (Fig. 4) are vertical, the roller bearing against the cam 15 enters the indent 18 so that it occupies the position shown in Figure 5 by the roller 11. This movement of the roller produces an anti-clockwise rocking of the lever 16, so that the folder rod 68 is moved across the rear side RS of the package, which in this position as shown in Figure 5, is uppermost and horizontal. This movement of the folder rod 68 folds over the protruding portions c (Figure 2) of the wrapping substantially flat against the side RS of the package.

In order to remove the folder rod 68 rapidly from the uppermost side of the package in its position P3, a lever arm I9 which is pivoted in the machine frame at 80 bears at one end against the operating roller for the folder rod 61 or 66 when in the position shown in Figure 5 as oocupied by the roller 11. The remote end 18a of the rocker arm 79 supports a roller 8|, which bears against a cam 82 continuously rotatable about the axis 46 from the main drive of the machine. The cam 82 is so arranged that after the roller 11 has entered the indent 'l8 on the cam I5 to fold over the upwardly extending flap 0 in alignment with the rear face of the package over the rearside RS of the package, and before the package is removed downwardly from between the retaining plates 63, and 64, 65, the arm 19 of the lever is depressed so as to move the roller I1 rapidly away from the indent I8 and thus remove the folder rod 68 away from the package.

During removal of this folder rod, a folder and presser plate 83, shown in Figure 6, is moved from the front side FF of the package obliquely downwardly across the rear side RS which is uppermost in the position P3, to fold over the upwardly extending portion d (Fig. 2) of the wrapping which is in alignment with the front face FF of the package. This folder and presser plate 83 folds the flap (2 over the opposite flap 0, and subsequently bears on the now wrapped right hand side RS of the package which is still uppermost. The lowermost surface of the package in the position P3 (which is the left hand side LS of the package), is now supported upon a platform 64 so that the package is gripped between the folder plate 83 and the platform 84. The folder and presser plate 83 is carried at the end of an arm 85 which protrudes from a member 86 extending across the machine and supported at each end on links 81 and 88 respectively. The links 81 and 88 are connected together at their lower ends by a rod l9! (Fig. 3) which extends across the machine, and they are each provided with a slotted guide bar 222 (Fig. 12) extending along the machine, through which bars pass vertical guide rods 223 secured to the machine frame. The links 81 and 88 are thus constrained to move in planes parallel to the sides-of the machine. At its lower end, the link 88 is pivotally connected at 98 with the lever arm I99 of a bell-crank lever which is journalled on a pivot pin 89 secured in the frame of the machine. The other arm 288 of the bell-crank is provided at its free end with a bearing surface 2|l| which contacts with a lug ||5 projecting from an operating lever II3 pivoted about the pin 89. The lever arm 90 of a bell-crank lever'80, 202, which is also pivotally mounted on the pin 89, is connected to the lever H8 by a tension spring 203. The short lever arm 202 of the bell-crank lever is formed with a bearing pad 203 which bears on the underside of a lug 204 projecting outwardly from the lever I99.

The free ends of the lever 90 and H8 are provided with rollers 205 and 206 respectively, which bear'on the outsides of cams 9i and 9Ia respectively, which arerotated about the axis 92 from the main drive of the machine. When this cam operates to lift the roller 206, the lever I99 and thus also the upper folding mechanism for the packet, is raised through the resilient connections of the spring 203 with the lever 90 and the contact between the pad 203 and the lug 204. Thus if a packet becomes jammed in the machine in the path of the upper folding mechanism, the links 88 and 89 are not forced upwards, but the lever H6 is rocked against the increasing tension of the spring 203.

Similarly, when the cam 9i operates to depress the roller 205, and thus lower the upper folding mechanism for the packet after it has been gripped in position P3 between the folder plate 83 and the platform 2i, to be moved'to position P4, the connections between the lever 90 and the lever I99 is again resilient, established.

through the tension spring 203, the lever H6 and the arm 200 by the bell-crank lever, through the lug H5 and the bearing surface 20I. Thus if a package becomes jammed in the packet wheel, the lever 90 is rocked'against the tension of the spring 203, and the folder plate 83 is not moved to crush the package. The lever arms 81 and 88 have pivoted thereto at 94, links 93, which are pivoted at their other ends, at the ends of levers 95 freely pivoted about the pivot 32. This link arrangement ensures that the transversely extending member 85 moves downwardly in a vertical path from the position shown in Figure 6, and returns to its upper operative position by a circuitous path whereby the folder and plate 83 is slid horizontally oif the package at the lowermost position of the lever 81, and is slid on to the package with a substantially downwardly inclined movement at the uppermost position. The arm 85 supporting the pressure plate passes between the two resiliently applied packet-retaining plates 54 and 55 or 64 and 65 during its downward movement.

The packet-supporting platform 84 (Figs. 6, '1 and 9) is carried resiliently upon a supporting carrier 96 which is mounted at the upper end of a vertical rod 91. The platform 84 is provided with studs 98 which protrude freely through vertical holes in the carrier 96, compression springs 99 being inserted between the platform 84 and the carrier. The upward movement of the platform plate 84 with respect to the carrier 96 is limited by pins I passing through the studs 98.

The rod 91 is slidably mounted in a vertical guide IOI (Fig. 3) which is carried at the end of a bracket I02 secured to the frame. The bracket I02 is provided with an arcuate slot I04 in an extension I05 thereof. A link I06 pivoted at I01 in the platform supporting rod 91, is pivotally connected at its other end I08 to a swinging link I09 pivoted about an axis I03 in the frame. In

its intermediate portion, the link I06 carries aend ill to a driving crank arm II4 which is pivoted at its other end about the axis 89 and is actuated from the main drive of the machine in a manner similar to the driving crank arm I99, to lower the platform 96 when thepackage is to be removed from the position P3 to P4. This movement is vertical downwards during the movement of the package, and at the end of this vertical movement, the platform remains stationary whilst the package is removed therefrom to the next position P5, whereafter the platform is again raised vertically to the packet receiving positions P4, one complete reciprocating movement of the platforms occupying a period of one stage of the machine movement.

During the passage of the package from the position P3 to position P4, the upper and lower portions e and a. of the wrapping extending beyond each end of the package are folded downwardly and upwardly respectively as shown in Figure 2. The downward folding of the upper portion e'is effected by mechanism associated with the upper pressure plate 83, and the mechanism for folding 'up the lower portions a of the wrapping is associated with the lower platform 94.

The upper folding mechanism for folding down the flaps e is shown at the end of the folding operation in Figures 6 and '1 and during the folding operation in FigureB. The mechanism comprises a pair of folder plates H1 and I I8 disposed.

one at each end of the folder and presser plate 83. The folder plate H1 is carried at the end of an arm II9, which is slotted intermediately at 206, through which slot passes a pin I20 carried in a vertical sleeve member I2I. The other end of the lever H9 is slotted as shown at I22 and this slot is engaged by a transversely extending pin I23. The plate H8 is similarly supported by a lever I23 which is slotted at 201 with a pin I24 on the sleeve I2I engaging the slot and also slotted at its other end I25, this slot being engaged by a pin I26. "The pins I23 and I26 are supported in lugs I21, I28'respectively which are carriedon the top presser plate 83. This plate also carries a vertical pin I29 upon which the sleeve I2l is slidably mounted. Vertically downward movement of the sleeve- I2I thus produces the lever I30 is pivotally connected at I33 to the upper end of the sleeve I2I. At the outer end of the spindle I3I is secured an arm 209, the end of which is pivotally connected'at I34 to a con-f necting link I35 which is raised with respect to the support 81, after the upper presser plate 83 has been moved over the uppermostside of 'the package to fold over the flap c and grip the package between itself and the platform 84. In order to ensure the correct aiignmento-f the upper operating mechanism the sleeve 'I2I is provided with a rearwardly extending spur I36 which is slotted at its end to engage a guide rod I 31 projecting vertically upwards from the presser plate supporting arm 85. 1

The connecting link I35 is pivoted at its lower end to a bell-crank lever I38 (Figure 3) which is pivoted in the link 88 at I39. The other arm I40 of the bell-crank lever is provided with a roller I which engages the surface of a cam I42 as the link .88 descends, and causes the necessary upward movement of the link I35.

The lower folding mechanism associated with the platform 84 for folding up the flaps a, is shown in the folded position in Figures 6 and 7, and in the free position in Figure 9, and comprises a pair of folder plates I43, I44, which are carried on arms I45 and I46 respectively. The arm I45 is pivoted at 246 on a bracket I41 projecting from the platform'carrier 96, and the lever I 46 is pivoted at I48 on a bracket I49 projecting from the platform carrier 96 at the opposite end thereof. The levers I45 and I46 each carry rollers I50 and I5I respectively at their ends and these rollers engage vertical cam surfaces I52 and I53 respectively. The rollers are held in resilient contact with the cam surface by means of tension springs I54 and I 55 respectively which are connected respectively between the arms I45, I46 and the platform carrier 96. The cam surfaces I52 and I53 are so shaped that as the platform carrier 96 descends in its vertical path the folder plates I44 are moved from their position shown in Figure 9 to that shown in Fig. '7.

When the platform 84 reaches its lowermost position after folding the folder plates I43 and I44 are swung away from the package due to the cams I52, I53, and the package is now in the position P4 as shown in Figures 10 and 11 in which it is completely wrapped with the exception of two pairs of parallel closure flaps one pair, I and g (Figure 2) extending beyond each end of the package in alignment with the front face FF, and the other, only one h of which is shown in Figure 2, extending in alignment with the rear face RF of the package.

Whilst the package is in this position, the two closure flaps such as h, which are in alignment with the rear face RF of the package are folded over against the ends of the package by folding mechanism shown in Figures 10 and 11, and Whilst these flaps are retained in their folded positions, the package is fed horizontally between a pair of parallel belts extending between vertical rollers, and spaced apart a distance equal to the length of the package.

The folding mechanism for the end closure flaps h which are in alignment with the rear faces of the package, is carried on a feed ram which moves in a horizontal direction to feed the package between the rotating belts, and the folding of the end flaps is performed during the passage of the package from its position P4 to its position P5, as shown in Figure 11, this passage occupying the period of one stage of the operation of the machine.

The feed ram comprises a pair of plates I56, I51 arranged one at either end of the package, as shown in Figure 10. These plates are supported on arms I58 and I59 respectively, which are in turn supported on carriages I60, I6I. The carriages are slidable on horizontal rods I62, I63, which are secured one on either side of the machine frame, and in order to prevent rotation of the carriages on the guide shafts I62, I63, the carriages are each provided with downwardly depending forked lugs I64, I65, the lower forked ends of which engage guiding shafts I66, I61 respectively. Each carriage is provided with a lug I68, I69 whereby it is pivotally connected to a connecting rod I10 and I 1|. These connecting rod are operated from the main drive of the machine through lever 220 operated by a cam 224 'so as to move the carriages I and IN forwardly when the platform 84 has reached the position in which the package is in its position P4.

The arms I58 and I59 on the carriages are formed with bosses through which pass vertical spindles I12 and I 13 respectively. The protruding ends of these spindles are secured to bosses I14, I15, and, I16, I11 which are attached respectively to folder plates I18 and I19, shaped as shown in Figure II.

Secured also to the spindles I12 and I13 are toothed 'bevelledquadrants I and I8I, and these are meshed respectively by toothed bevelled quadrant racks I82 and I 84, which are secured respectively on spindles I 8301. and I84 Journaled in the lower parts of the arms I58 and I59 respectively and protruding to the exterior thereof. On the outer ends of these spindles I83 and I84 are secured bell-crank levers I85 and I86 respectively. At the end of one arm of each bellcrank lever is a roller I81 and I 88, and these rollers engage cranked horizontal slots I89 and I90 in horizontal guide members I9I and I92 which are fixed to the side of the machine frame. At the ends of the other arms of the bell-crank levers are provided pins I93 and I94 whereby the bell-crank levers are biassed by tension springs I95 and I96, the other ends of the springs being anchored to pins I 91 and I98 secured in the arms I58 and I59.

When the feed plunger is in its withdrawn position, the rollers I 81 and I88 are within the lower horizontal portion of the slots I89 and I90, and the folder plates I18 and I19 are thus directed outwardly. As the feed plates I56 and I51 are moved forwardly by the connecting rods I10 and HI, the rollers I81 and I88 reach the cranked portions of the guide slots I 89 and I90, and in consequence the bell-crank levers I 85 and I86 are rotated against the bias of the springs I95 and I96. This rotation produces through the toothed quadrants I82, I83 and I 80, I8I rotation of the folder plates I18 and I19 about the spindles I12, I13 to the positions shown in Figures 10 and 11 where they are parallel to the ends of the package, The closure flaps of the wrapping such as h, which are in alignment with the rear face of the package are thus folded over the ends of the package, and the package is gripped between the folder plates to be fed forward by the feeding plates I56 and I 51 to the finalclosure and delivery belts.

When the package is gripped between these belts, the carriages I60 and I6I are withdrawn by their connecting links I 10 and I 1 I, and positioned to receive the next package. In this withdrawal movement, the rollers I81 and I88 encounter the cranked portions of the guide slots I89 and I90 and the folder plates I 18 and I19 are thereby swung outwardly again.

When the package is received between delivery belts 22, the two remaining end closure flaps f and 9 (Fig. 2), in alignment with the front face FF of the package are folded over their opposite end closure flaps it, so as to overlap these, and as the package passes between the belts, these end closure flaps are subjected to slight heating by heated rollers so that the wax in the paper in these parts softens and partially melts. During furtherpassage of the completely wrapped pack age between the belts, pressure is applied endwise on the package so as to seal these end closure flaps on cooling and solidifying of the wax.

In order to seal the over-lapping edge 11 of the horizon 1 axes are arranged above the package in a 0 ing 225 (Fig. 12), located between the belts 23 so that the rollers bear on the side RS.

. The first rollers to be encountered by the package are heated slightly by means of electric resistances, connections to which pass into the casing 225 through a conduit 226. This heating causes softening and partial melting of the wax in the paper, and as the package passes beneath the subsequent rollers, the under surface of the overlapping edge portion of the flap d of the wrapping on this side of the package is effectively sealed to the upper surface of the part c of the wrapping underneath.

The sealed packages may then be delivered by the machine by any suitable ejecting mechanism such as a travelling belt. and in order that the packages in the machine shall be delivered therefrom, even if the machine is stopped, the sealing and delivery belts are driven from a source of power separate from the main drive of the machine.

In order to rotate the machine slowly so that a new length of wrapping may be introduced into the machine when a reel I is exhausted, a hand wheel 22i (Fig. 12) is mounted on a spindle which may be connected to the main drive of the machine by a clutch.

The machine as described, operates in stages and during each stage a fresh package is intro duced into the machine.from the belt l3 so that there are always live packages simultaneouslyin the machine undergoing the various folding operations when the machine is operating. The

progressive movement of the package between each stage enables a continuous feed of packages into the machine and thus the output of the machine may be made as high as desired. Usually however it will be found that a speed of about 60 packages per minute is sufllcient for packages of the order of ten to twelve inches in length.

Furthermore, in their movement between successive stages, the packages are always moved against the previous folding movement so that the wrapping is effectively tightened on to the package during each stage. This eflect is of particular importance in the early stages of the wrapping, and due to the arrangement of the packet wheel whereby the package is only rotated through 90 between stages P2 and P3, the package is removed downwardly to position PA by pushing it through the retaining plates I9, 20 (Figure 2) against the wrapping over the left hand side LS of the package. This has the effect of tightening the wrapping about the front and rear faces FF and RF of the package and also the left hand side LS.

Moreover, due to the arrangement of the packet wheel and the final horizontal feed of the package to the delivery belts, the path of the package through the machine is stepped. This has the considerable advantage of enabling the overall size of the machine to be kept at a minimum so that manufacturing costs of the machine are minimized as also is fioor space occupied by the machine.

It will be evident that the construction, arrangement and operation of the machine or parts thereof hereinbefore described by way of example may be modified within the scope of the invention.

I claim:

1. In a wrapping machine having a movable support including retaining means for an article to be wrapped and means including said retaining means for partially wrapping the article, the combination of means for moving the support whereby to actuate said retaining means to another wrapping station, means operative during such movement for rotating the retaining means through an angle, and means at said other station for pushing the partially wrapped article through the retainingmeans in the same direction relatively thereto as it was inserted therein.

2. In a wrapping machine having a movable support including retaining means for an article to be wrapped and means including said retaining means for partially wrapping the article, the combination of means for moving the support whereby to actuate said retaining means to another wrapping station, means operative during such movement for rotating the retaining means through 90, and means at said other. station for pushing the partially wrapped article through the retaining means in the same direction relatively thereto as it was inserted therein.

3. A wrapping machine comprising means for retaining a partially wrapped article, means for moving said retaining means to another station and for rotating said retaining means throughout an angle during such movement, means at said station for effecting another wrapping operation, means for removing the still partially wrapped article from the retaining means, said last-named means being operative to move the article from 1 eration, means for removing the still partially wrapped article from the retaining means, said last-named means being operative to move the article from the retaining means in the same direction relatively thereto as it was inserted therein, and means operative upon such removal to effeet the final wrapping operations.

5. A wrapping machine comprising means for pushing a carton against a sheet of wrapping material and thereafter into retaining means op-.

erative to fold the wrapping material to channelshape about three sides of the carton, means for moving the retaining means with the partially wrapped carton therein to a subsequent wrapping station, means operative during such movement for rotating said retaining means throughout an angle, means at said station for folding the portions of the side parts of the wrapping which extend beyond the uncovered fourth side of the carton over said fourth side, and means for removing the partially wrapped carton and its wrapping from said retaining means, said lastnamed means being operative to push the partially wrapped carton and its wrapping through said retaining means in the same direction relatively thereto as they were inserted therein.

6. A wrapping machine comprising means for moving the carton into retaining means across which extends a sheet of wrapping material, whereby the wrapping is folded over two side edges of the carton and wrapped around three sides thereof, means for moving said retaining means and the partially wrapped carton therein to another station and for rotating said retaining means throughout an angle during such movement, means at said station for folding the two side portions of the wrapping extending beyond the uncovered fourth side of the carton over the longitudinal edges of said fourth side, means for removing the partially wrapped carton from said retaining means, said last means being operative to engage against the last covered side of the carton and to push the partially wrapped carton and its wrappr through the retaining means, and means operative upon such removal to fold the opposite projecting end portions of the wrapping over the ends of the carton to form pairs of end closure flaps and finally to close said closure flaps against the carton.

7. In a wrapping machine, a rotatable turret, means for rotating said turret intermittently in the same direction through half revolutions, a pocket rotatably mounted on said turret and means for rotating said pocket through only one quarter of a revolution during each first half revolution of the turret and through the remaining three quarter of a revolution during each last half revolution of the turret.

8. In a wrapping machine, a rotatable turret, pocket means rotatably mounted thereon, a trailing arm on said pocket means and a cam engaged by said trailing arms for controlling the rotation of said pocket means relatively to said turret during rotation of said turret.

9. In a wrapping machine, a rotatable turret, pocket means rotatably mounted thereon, a trailing arm on said pocket means, a circular cam track eccentric of said turret and a roller on said trailing arm, engaging said cam track.

10. In a wrapping machine, a rotatable turret, means for rotating said turret in half revolutions, pocket means rotatably mounted on said turret, a trailing arm on said pocket means, a roller on said armand a circular cam track engaged by said roller and arranged eccentric of said turret.

11. In a wrapping machine, a rotatable turret, a pair of packet retaining pockets rotatably mounted diametrally on said turret, a trailing arm on each pocket, a roller on each arm, a circular cam track engaged by said rollers and arranged eccentric of said turret, a station at which one pocket is horizontal, a diametrally opposite station at which the other pocket is vertical and means for rotating said turret intermittently in the same direction to interchange the positions of said pockets.

l2. Packet wheel for transferring a. partially wrapped carton from one wrapping station in a wrapping machine to another, comprising a rotatable carrier member, carton receiving and retaining means rotatably mounted on said carrier member, means for moving the carrier after receipt of a partially wrapped carton to a second station, means for rotating the carton receiving and retaining means relative to the carrier member during such rotation of the carrier member,

and means at said second station for removing said carton from the receiving and retaining means in the same direction relatively thereto as it was inserted therein.

13. Packet wheel for a wrapping machine for transferring a partially wrapped carton from one wrapping station to another, comprising a rotatable carrier member, cartonreceiving and retaining means rotatably mounted at the free end of said carrier member, means for rotating the carrier to position the carton at the second station, means for rotating the carton receiving and rearea-ass taining means relatively to the carrier member during rotation of the carrier and means at said second station for removing said carton from the receiving and retaining means in the same direction relatively thereto as it was inserted therein.

14. Packet wheel for a wrapping machine for transferring a partially wrapped carton from one wrapping station to another, comprising an intermediately pivoted carrier member, carton receiving and retaining means rotatably mounted at each free end thereof, means for rotating the carrier intermittently through half revolutions. and means for rotating the carton receiving and retaining means at each end through during transference from the first wrapping station to the second, and through 270 during repositioning from the second station to the first.

15. Wrapping machine including a packet wheel, means for introducing a partially wrapped article into retaining means on said packet wheel, means for rotating said packet wheel through half a revolution to position the article at another station, means for rotating the retaining means through 90 only during said half revolution of the packet wheel, and means for removing the partially wrapped article from the packet wheel in the same direction with respect to the retaining means as it was inserted therein.

16. Machine for mechanically wrapping cartons, including guide means providing a first folding station, means for supporting a sheet of wrapping material across the ends thereof, means for introducing a carton into said guide means so as to fold said sheet of wrapping over three sides of the carton, means for moving said guide means and said carton to a second folding station, means for successively folding the extending side portions of the wrapping over the fourth side of the carton during such movement,

means for removing the partially wrapped carton from the guide means at the second folding station in the same direction relatively thereto as it wasinserted therein, means for folding over oppositely extending end portions of the wrapping at each end of the container, means for folding over one each of the two pairs of and closure flaps thus formed, and means for folding over the other two end closure flaps.

17. Machine for mechanically wrapping cartons, comprising rotatable carrier means, wrapper folding and carton retaining means rotatably mounted thereon, means for supporting a sheet of wrapping material across the ends of said folding and retaining means when in a horizontal carton receiving position, means for introducing a carton into said folding and retaining means when in the carton receiving position so as to fold the sheet of wrapping over three sides of the carton, means for rotating said carrier means through half a revolution, means for controlling the rotation of the folding and retaining means during said half revolution of the carrier means so that they rotate through 90 only and thereafter locate the carton at a fresh wrapping station with its uncovered fourth side uppermost, means for successively folding over the extending side portions of the wrapping so that one overlaps the other on the said fourth side of the carton, means for removing the partially wrapped carton from the folding and retaining means in a vertically downward direction, means for folding over oppositely extending end portions of the wrapping at each end of the carton, means for the sheet of wrapping over three sides of the carton within the folding and retaining means, means for rotating said carrier means intermittently through half revolutions to position partially wrapped cartons at a new wrapping station, means for controlling the carton retaining means during each half a revolution of the packet wheel so that they rotate through 90 extending end portions of the wrapping at each end of the carton, means for folding over one each of the two pairs of end closure flaps thus formed and thereafter gripping the carton and moving it to the next wrapping station, means for folding over the other two end closure flaps so that they overlap their corresponding flaps, and means for securing the same.

19. In a machine for mechanically wrapping cartons, comprising the combination of means for supplying intermittently a sheet of wrapping material to vertical guiding and supporting means therefor, a packet wheel rotatable intermittently in the same direction through half revolutions, a carton receiving pocket rotatably mounted on said packet wheel, a feedplunger for feeding a carton into said pocket when in a horizontal position adjacent the sheet of-wrapping, means for limiting the rotation of said pocket to 90 only, during half a revolution of the packet wheel from its initialposition, wrapper folding means associated with said pocket, means for gripping and removing the partially wrapped carton from the pocket after said half revolution of the packet wheel, including a lower platform equipped with and folding means and an upper folding and presser plate equipped with end folding means, means for simultaneously lowering the lower platform and the presser plate to remove the partially wrapped carton from the pocket and also operate the end folding means,

and supporting means for maintaining a cut sheet of wax-impregnated wrapping material in a vertical plane, an intermediately pivoted arm, a pair of wrapper folding and carton retaining sets of plates pivotally mounted one at each end of the pivoted arm, a Geneva-wheel mechanism for rotating said arm intermittently in the same direction through half revolutions, cam operated trailing arms on each set of said folding and retaining plates to coact with said Geneva-wheel mechanism and position one of said sets of wrapper folding and carton retaining plates at the end of each half revolution alternately horizontally adjacent the supported sheet of wrapping and vertically at a station remote from said sheet of wrapping l6 (and the other set of wrapper folding and carton retaining plates alternately vertically at the remote station and horizontally adjacent the supported sheet of wrapping), means for feeding cartons into the machine in alignment with said wrapper folding and carton retaining plates when in the horizontal position but on the side of the sheet of wrapping remote therefrom, a feed plunger for inserting said cartons alternately into the two sets of folding and retaining plates when in said horizontal position to fold a sheet of wrapping over three sides of each carton within the said folding and retaining plates, an upper folder plate, means for moving said folder plate across the upper side of the carton when in the vertical position to fold over an extending side portion of the wrapping to overlap the opposite side thereof, a lower platform, means for moving said lower platform into engagement with the lower side of the carton when in the vertical position, means for gripping said carton between the upper folder plate and the lower platform and removing it vertically downwards from the set of folding and retaining plates.

* '21." In a machine for mechanically wrapping cartons, the sub-combination of means for removing a partially wrapped carton from folding and retaining means, comprising an upper folder and gripping plate, and a lower folder platform, a pair of upper and folding fingers horizontally pivoted on said upper folder plate, a pair of lower end folding fingers horizontally pivoted on said platform, cam means for operating each of said pairs of folding fingers during the removal of the carton from the folding and retaining means, a feed plunger for removing the carton from between said upper folder plate and said lower platform, end closure flap folding plates vertically pivoted on said feed plunger, operating means for said feed plunger, cam means for said flap folding plates toarotate said plates during 7 said carton prior to removal from between said upper folder plate and said lower platform. two spaced rows of vertically mounted rollers, belts extending over said rollers and spaced to receive said carton and to fold over the remaining end closure flaps to overlap the other end closure flaps, heating means associated with said rollers to seal the pairs of end closure flaps together at each end, horizontally mounted rollers to bear on the upper side of the carton, heating means associated with said rollers to seal the overlapping edge portions of the wrapping, and dis- 0 charge" means for-delivering the wrapped and sealed cartons from the machine swamp GERMAN ROBE. 

